Signal and Power Integrity (SI/PI) analyses assume a paramount importance to ensure a secure integration of highspeed communication interfaces in low-cost highly-integrated System-in-Package(s) (SiP) for mobile applications. In an iterative fashion, design and time-domain SI/PI verifications are alternated to assess and optimize system functionality. The resulting complexity of the analysis limits simulation coverage and requires extremely long runtimes (hours, days). In order to ensure post-silicon correlation, electrical macromodels of Package/PCB parasitics and high-speed I/Os can be generated and included in the testbenches to expedite simulations. Using as example an LPDDR2 memory interface to support the operations of a mobile digital base-band processor, we have developed and applied a macromodelling flow to demonstrate simulation run-time speedup factors (x1200+), and enable interface-level analyses to study the effects of Package/PCB parasitics on signals and PDNs, as well as the corresponding degradation in the timing budget.
Macromodel-based signal and power integrity simulations of an LP-DDR2 interface in mSiP
SIGNORINI, GIANNI;FANUCCI, LUCA
2014-01-01
Abstract
Signal and Power Integrity (SI/PI) analyses assume a paramount importance to ensure a secure integration of highspeed communication interfaces in low-cost highly-integrated System-in-Package(s) (SiP) for mobile applications. In an iterative fashion, design and time-domain SI/PI verifications are alternated to assess and optimize system functionality. The resulting complexity of the analysis limits simulation coverage and requires extremely long runtimes (hours, days). In order to ensure post-silicon correlation, electrical macromodels of Package/PCB parasitics and high-speed I/Os can be generated and included in the testbenches to expedite simulations. Using as example an LPDDR2 memory interface to support the operations of a mobile digital base-band processor, we have developed and applied a macromodelling flow to demonstrate simulation run-time speedup factors (x1200+), and enable interface-level analyses to study the effects of Package/PCB parasitics on signals and PDNs, as well as the corresponding degradation in the timing budget.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.